Natural populations are often exposed to temporally varying environments. Evolutionary dynamics in varying environments have been extensively studied, although understanding the effects of varying selection pressures remains challenging. Here, we investigate how cycling between a pair of statistically related fitness landscapes affects the evolved fitness of an asexually reproducing population. We construct pairs of fitness landscapes that share global fitness features but are correlated with one another in a tunable way, resulting in landscape pairs with specific correlations. We find that switching between these landscape pairs, depending on the ruggedness of the landscape and the interlandscape correlation, can either increase or decreas...
Natural selection drives populations towards higher fitness, but crossing fitness valleys or plateau...
The mapping from genotype to phenotype to fitness typically involves multiple nonlinearities that ca...
We used a probabilistic optimization model to explore the joint evolutionary eects of random phenoty...
Natural populations are often exposed to temporally varying environments. Evolutionary dynamics in v...
Background: On rugged fitness landscapes where sign epistasis is common, adaptation can often involv...
We introduce abroadened framework to study aspects of coevolution based on the NK class of statistic...
In 1932 Sewall Wright introduced the notion of the fitness landscape. By analogy with a physical lan...
Recent experimental and theoretical studies have shown that small asexual populations evolving on co...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Fitness landscapes are an important concept in molecular evolution. Many important examples of lands...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
A fundamental question in evolutionary biology is what promotes genetic variation at non-neutral loc...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
In life histories with generation overlap, selection that acts differently on different life-stages ...
Natural selection drives populations towards higher fitness, but crossing fitness valleys or plateau...
The mapping from genotype to phenotype to fitness typically involves multiple nonlinearities that ca...
We used a probabilistic optimization model to explore the joint evolutionary eects of random phenoty...
Natural populations are often exposed to temporally varying environments. Evolutionary dynamics in v...
Background: On rugged fitness landscapes where sign epistasis is common, adaptation can often involv...
We introduce abroadened framework to study aspects of coevolution based on the NK class of statistic...
In 1932 Sewall Wright introduced the notion of the fitness landscape. By analogy with a physical lan...
Recent experimental and theoretical studies have shown that small asexual populations evolving on co...
The distribution of fitness effects (DFE) among new mutations plays a critical role in adaptive evol...
Fitness landscapes are an important concept in molecular evolution. Many important examples of lands...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
Genetic spaces are often described in terms of fitness landscapes or genotype-to-phenotype maps, whe...
A fundamental question in evolutionary biology is what promotes genetic variation at non-neutral loc...
Adaptation depends critically on the effects of new mutations and their dependency on the genetic ba...
In life histories with generation overlap, selection that acts differently on different life-stages ...
Natural selection drives populations towards higher fitness, but crossing fitness valleys or plateau...
The mapping from genotype to phenotype to fitness typically involves multiple nonlinearities that ca...
We used a probabilistic optimization model to explore the joint evolutionary eects of random phenoty...